MC10116P Triple Differential Line Receiver DIP-16 (MC10116P DIP IC) The MC10116P is a high-speed triple differential amplifier designed for sensing differential signals over long lines. It is part of the MECL 10K (Emitter-Coupled Logic) family, offering extremely fast propagation delays of typically 2.0ns. This IC features internal active current sources that provide excellent common-mode noise rejection. A unique feature is the internal reference voltage (VBB) available at pin 11, which allows the device to function as a Schmitt trigger or for single-ended input applications.
This IC is primarily used in high-speed data transmission, clock distribution, and RF signal processing. It is a specialized component for advanced Arduino electronics projects in India involving high-frequency digital logic, legacy high-speed computing repair, and experimental pulse-sensing circuitry.
Key Features
- Triple independent differential line receivers
- Extremely high-speed operation (2.0ns typical propagation delay)
- Complementary outputs for each amplifier channel
- Internal reference voltage (VBB) for stable biasing
- High common-mode noise rejection via active current sources
- Capability to drive twisted pair lines or coaxial cables
- Compatible with MECL 10K series logic
- Low power dissipation of 85mW (typical per package)
Specifications
- IC Type = Triple Differential Line Receiver
- Logic Family = MECL 10K (ECL)
- Propagation Delay = 2.0ns (Typical)
- Supply Voltage (VEE) = -5.2V (Negative Supply)
- Supply Voltage (VCC) = Ground (0V)
- Output Voltage Logic 1 = -0.960V to -0.810V
- Output Voltage Logic 0 = -1.850V to -1.650V
- Reference Voltage (VBB) = -1.29V (Typical)
- Package Type = PDIP-16
- Mounting Type = Through-Hole
- Operating Temperature = -30 to 85 degrees Celsius
Interfaces
- PIN 1, 16 (VCC) = Positive Supply (Ground 0V)
- PIN 2, 3 = Complementary Outputs (Channel A)
- PIN 4, 5 = Differential Inputs (Channel A)
- PIN 6, 7 = Differential Inputs (Channel B)
- PIN 8 (VEE) = Negative Supply Voltage (-5.2V)
- PIN 9, 10 = Complementary Outputs (Channel B)
- PIN 11 (VBB) = Reference Voltage Output
- PIN 12, 13 = Differential Inputs (Channel C)
- PIN 14, 15 = Complementary Outputs (Channel C)
